1) Suppose you made an intravenous solution, intended to be isoosmotic to red blood cells (i.e.,...
1) Suppose you made an intravenous solution, intended to be isoosmotic to red blood cells (i.e., 300 mOsm). You add 5 grams of NaCl to 800 ml of distilled water. Will this solution be isoosmotic to cells? if not, what will happen to the cells? (Will they take in water or lose water?)
How would you make 500ml of a 5% NaCl solution?
You dissolve 20 grams of glucose into water to give a solution whose final volume is exactly 400mL. What is the concentration of this solution in moles per liter?
2) Using the molecular weight of glucose, calculate the molarity and osmolarity of a 5% sucrose solution.
3) Using the molecular weight of NaCl and its dissociation constant, calculate the molarity and osmolarity of a .45% NaCl solution.
4) What is the osmolarity of an IV solution which is .45% NaCl and 5% glucose?
5) If a patient is dehydrated, what is the best IV to move water into the cells?
6) What is the best IV for a patient with severe blood loss before new blood arrives?
7) Compare the osmolarities of the following solutions:
Solution A = 1 OsM glucose. Solution B = 2 OsM glucose. Solution C = 1 M NaCl
A is _____ Osmotic to B
A is _____ Osmotic to C
B is _____ Osmotic to A
B is _____ Osmotic to C
C is _____ Osmotic to A
C is _____ Osmotic to B
Homework Answers
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1) Suppose you made an intravenous solution, intended to be
isoosmotic to red blood cells (i.e.,...
The total concentration of dissolved particles in blood is 0.30 M. An intravenous (IV) solution must...
The total concentration of dissolved particles in blood is 0.30 M. An intravenous (IV) solution must be isotonic with blood, which means it must have the same concentration. (a) To relieve dehydration, a patient is given 190. mL/h of IV glucose (C6H12O6) for 2.0 h. What mass (g) of glucose did she receive? (b) If isotonic saline (NaCl) is used, what is the molarity of the solution? (c) If the patient is given 160. mL/h of IV saline for 3.0...
1) What is the osmolarity of an IV solution which is .45% NaCl and 5% glucose?...
1) What is the osmolarity of an IV solution which is .45% NaCl and 5% glucose? a. If a patient is dehydrated, what is the best IV to move water into the cells? b. What is the best IV for a patient with severe blood loss before new blood arrives?
If human red blood cells are placed in an isotonic solution (0.9% NaCl; MW = 58.4;...
If human red blood cells are placed in an isotonic solution (0.9% NaCl; MW = 58.4; 37°C), they neither gain nor lose water. (a) Calculate the osmotic potential (atm) inside those red blood cells; (b) What would happen to the cells if they were placed in pure water, rather than the isotonic solution? Why?
16.a is the saturated NaCl solution isotonic, hypertonic or hypotonic with blood? Explain. b. If a...
16.a is the saturated NaCl solution isotonic, hypertonic or hypotonic with blood? Explain. b. If a patient was administered an intravenous dose of this solution, what would happen to their red blood cells? What would be a likely initial symptom of high levels of Na* and CI? C. Read the label on the 0.9 % Sodium Chloride IV solution bag. 1. What is the osmolarity of this solution? Is this solution isotonic, hypertonic or hypotonic? Explain. 2. Is the stated...
What Molarity of NaCl would give a 300mOsm solution so as to be isotonic to ECF...
What Molarity of NaCl would give a 300mOsm solution so as to be isotonic to ECF and ICF Set up and solve for X: (cross multiply) 300 mOsm X 2000 mOsmTM Try this on your own, then read on. Show work here: You should have an answer of 0.15 M. If you don't: please ask for help. You need to be able to get that calculation for the next part. Now find the number of grams per liter needed to...
1. Intravenous, or IV solutions used in medicine must exert the same osmotic pressure as blood to prevent a net flow of...
1. Intravenous, or IV solutions used in medicine must exert the same osmotic pressure as blood to prevent a net flow of water into or out of the blood cells. The proper concentration for an intravenous NaCl solution is 0.90 g NaCl per 100. mL of water (sometimes refered to as 0.90% m/v). If the van\'t Hoff factor of NaCl is i = 1.8, what is the osmotic pressure of blood at body temperature, 37
A drop of blood is added to a 1mL solution containing both 0.1M Sucrose and 0.1M...
A drop of blood is added to a 1mL solution containing both 0.1M Sucrose and 0.1M NaCl. What is the expected osmolarity of the solution compared to the intracellular fluid of the RBC BEFORE and AFTER the blood is added, respectively? Apply the concept based on the results observed in the lab experiment. (1 pt) Select one: a. hyperosmotic, hypoosmotic b. isoosmotic, hypoosmotic c. hypoosmotic, hyperosmotic d. isoosmotic, isoosmotic e. hypoosmotic, hypoosmotic f. isoosmotic, hyperosmotic g. hyperosmotic,...
Please answer questions 3-5 3) A solution has 10 mM of glucose and 25 mM of...
Please answer questions 3-5
3) A solution has 10 mM of glucose and 25 mM of albumin protein. What is the osmolarity lennso ensidmem of eub stom 1sloc bne.enol begisro 0 ortt wobevon 2eluoolom esen eosevsel 10 Y oe berotnoonoo 2es ot o noituloe belsntnson00 nistog to eeqy 016 tod) enlelo10 1elmeo o lennsrdo ens nelog 26 noiautib bateillost bollso al aeso1 ein 4) A solution contains 50 mM NaCl, 20 mM alucose, and 10 mM albumin. What is the...
deuterium oxide: 42 liters inulin: 13 liters
deuterium oxide: 42 liters
inulin: 13
liters
Evans blue: 2.8 liters
Her plasma shows a freezing point depression of 0.55 degrees C.
For an ideal solution, a 1 OsM solution depresses the freezing
point 1.86 degrees C.
1. osmolarity of her body fluids? --> 0.295
2. How much solute (osmoles) exists in each of the above
compartments? (shown below)
Using the data above as the initial conditions in each case,
determine the effects of the following procedures on the...
7. Which of the following solutions is isotonic (no osmosis) with a 0.30 M NaNO, solution?...
7. Which of the following solutions is isotonic (no osmosis) with a 0.30 M NaNO, solution? {hint - Find the osmosis molarity or "osmolarity" = (# ions)M} a) 0.10 M CaCl2 b) 0.30 M glucose c) 0.60 M NaCl d) 0.15 M AICI; e) 0.75 M KCI (n-1 for glucose) 8. If a solution of 0.20 M Mg(NO3)2 is separated from a 0.25 M KCl solution by a membrane that is permeable to water, osmosis will occur. Describe the osmotic...
16.a is the saturated NaCl solution isotonic, hypertonic or hypotonic with blood? Explain. b. If a patient was administered an intravenous dose of this solution, what would happen to their red blood cells? What would be a likely initial symptom of high levels of Na* and CI? C. Read the label on the 0.9 % Sodium Chloride IV solution bag. 1. What is the osmolarity of this solution? Is this solution isotonic, hypertonic or hypotonic? Explain. 2. Is the stated...
What Molarity of NaCl would give a 300mOsm solution so as to be isotonic to ECF and ICF Set up and solve for X: (cross multiply) 300 mOsm X 2000 mOsmTM Try this on your own, then read on. Show work here: You should have an answer of 0.15 M. If you don't: please ask for help. You need to be able to get that calculation for the next part. Now find the number of grams per liter needed to...
Please answer questions 3-5
3) A solution has 10 mM of glucose and 25 mM of albumin protein. What is the osmolarity lennso ensidmem of eub stom 1sloc bne.enol begisro 0 ortt wobevon 2eluoolom esen eosevsel 10 Y oe berotnoonoo 2es ot o noituloe belsntnson00 nistog to eeqy 016 tod) enlelo10 1elmeo o lennsrdo ens nelog 26 noiautib bateillost bollso al aeso1 ein 4) A solution contains 50 mM NaCl, 20 mM alucose, and 10 mM albumin. What is the...
deuterium oxide: 42 liters
inulin: 13
liters
Evans blue: 2.8 liters
Her plasma shows a freezing point depression of 0.55 degrees C.
For an ideal solution, a 1 OsM solution depresses the freezing
point 1.86 degrees C.
1. osmolarity of her body fluids? --> 0.295
2. How much solute (osmoles) exists in each of the above
compartments? (shown below)
Using the data above as the initial conditions in each case,
determine the effects of the following procedures on the...
7. Which of the following solutions is isotonic (no osmosis) with a 0.30 M NaNO, solution? {hint - Find the osmosis molarity or "osmolarity" = (# ions)M} a) 0.10 M CaCl2 b) 0.30 M glucose c) 0.60 M NaCl d) 0.15 M AICI; e) 0.75 M KCI (n-1 for glucose) 8. If a solution of 0.20 M Mg(NO3)2 is separated from a 0.25 M KCl solution by a membrane that is permeable to water, osmosis will occur. Describe the osmotic...
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